Dr. Sandra Jenatsch, Fluxim AG, Switzerland
Analyzing trap state formation during degradation of thermally-activated delayed fluorescent OLEDs
11.30-12.00 Tues July 4th, Timber Hall 1.
Sandra will also be chairing the workshop on OPVs & Perovskite PVs which takes place in the Crystal hall on Monday July 3rd at 17.30-18.45
Dr. Daniele Braga will be very busy during the conference not only will he be manning the Fluxim booth but in between he will also be presenting 2 talks and participating in the B2B matchmaking event.
Here’s where Daniele will be:
Monday July 3rd, 2023.
Design of optical filters for colored perovskite photovoltaics
16:00-16:15
Booth C4
If you would like to see the latest cutting edge simulation software and measurement tools in action come along to Booth C4 where Daniele and Sandra will be happy to share how they can be used in your research.
Business Forum
If you want learn more about Fluxim then join Daniele at the Business Forum event on July 5th at 13:45 - 14:00 pm when he will be presenting all we do in 15 minutes!
About the ISFOE Business Forum
And if that’s not enough then be sure to take part in the B2B match making forum on the 5th July.
B2B Matchmaking Event
The ISFOE Program consists of Workshops and Sessions focused on:
> Organic and Large Area Electronics materials (polymer and small molecule organic semiconductors, transparent electrodes, barriers for encapsulation)
> Organic Photovoltaics & Perovskite PVs
> OLEDs for Displays and Lighting
> OTFTs, Integrated Systems and Sensors
> Biosensors & Bioelectronics
> Graphene and related materials
> Laser Technologies & Patterning
> R2R Printing, Vacuum and OVPD Equipment and Technologies
> Real-time Metrologies and Quality control for Zero-Defect Digital Manufacturing
> AI-enhanced NanoManufacturing of Flexible Organic & Printed Electronics
> Machine Learning for Manufacturing Data Processing & Data Management
> Computational Modelling and Simulation of OE nanomaterials and devices
> Open Innovation and Interoperability
> Wearable Technologies
> Internet of Things (IoT)
> European and National funded R&D Projects in the above topics
Advance your knowledge to:
> solve problems related to nanomaterials (e.g. morphology, phase separation, interfaces, charge generation & transport, up-scalability to large area processes) and to devices,
> progress on the theoretical modeling and computational methods,
> advance the understanding of the basic mechanisms and phenomena and establish the structure-property relationships that will allow the market implementation of OE devices.